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tikzfeynman.patch.3.0.1.lua
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tikzfeynman.patch.3.0.1.lua
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-- This patched version of the createVertex function simply ensures that the
-- path is never empty. This works fine for TikZ version 3.0.1 and 3.0.1a.
--
-- Later versions (should) have a more thorough patch by Till which is
-- incompatible with this override unfortunately.
--
-- #############################################################################
--
-- Copyright 2012 by Till Tantau
--
-- This file may be distributed an/or modified
--
-- 1. under the LaTeX Project Public License and/or
-- 2. under the GNU Public License
--
-- See the file doc/generic/pgf/licenses/LICENSE for more information
-- @release $Header: /cvsroot/pgf/pgf/generic/pgf/graphdrawing/lua/pgf/gd/interface/InterfaceToDisplay.lua,v 1.14 2014/03/19 09:20:59 tantau Exp $
-- Print anything - including nested tables
function table_print (tt, indent, done)
done = done or {}
indent = indent or 0
if type(tt) == "table" then
for key, value in pairs (tt) do
io.write(string.rep (" ", indent)) -- indent it
if type (value) == "table" and not done [value] then
done [value] = true
io.write(string.format("[%s] => table\n", tostring (key)));
io.write(string.rep (" ", indent+2)) -- indent it
io.write("(\n");
table_print (value, indent + 4, done)
io.write(string.rep (" ", indent+2)) -- indent it
io.write(")\n");
else
io.write(string.format("[%s] => %s\n",
tostring (key), tostring(value)))
end
end
else
io.write(tt .. "\n")
end
end
---
-- This class provides the interface between a display
-- layer (like \tikzname\ or a graph editor) and graph drawing
-- system. Another class, |InterfaceToAlgorithms|, binds the algorithm
-- layer (which are written in Lua) to the graph drawing system.
--
-- The functions declared here are independent of the actual display
-- layer. Rather, the differences between the layers are encapsulated
-- by subclasses of the |Binding| class, see that class for
-- details. Thus, when a new display layer is written, the present
-- class is \emph{used}, but not \emph{modified}. Instead, only a new
-- binding is created and all display layer specific interaction is
-- put there.
--
-- The job of this class is to provide convenient methods that can be
-- called by the display layer. For instance, it provides methods for
-- starting a graph drawing scope, managing the stack of such scope,
-- adding a node to a graph and so on.
local InterfaceToDisplay = {}
-- Namespace
require("pgf.gd.interface").InterfaceToDisplay = InterfaceToDisplay
-- Imports
local InterfaceCore = require "pgf.gd.interface.InterfaceCore"
local Scope = require "pgf.gd.interface.Scope"
local Binding = require "pgf.gd.bindings.Binding"
local Sublayouts = require "pgf.gd.control.Sublayouts"
local LayoutPipeline = require "pgf.gd.control.LayoutPipeline"
local Digraph = require "pgf.gd.model.Digraph"
local Vertex = require "pgf.gd.model.Vertex"
local Edge = require "pgf.gd.model.Edge"
local Collection = require "pgf.gd.model.Collection"
local Storage = require "pgf.gd.lib.Storage"
local LookupTable = require "pgf.gd.lib.LookupTable"
local Event = require "pgf.gd.lib.Event"
local lib = require "pgf.gd.lib"
-- Forward declarations
local get_current_options_table
local render_collections
local push_on_option_stack
local vertex_created
-- Local objects
local phase_unique = {} -- a unique handle
local collections_unique = {} -- a unique handle
local option_cache = nil -- The option cache
---
-- Initiliaze the binding. This function is called once by the display
-- layer at the very beginning. For instance, \tikzname\ does the
-- following call:
--
--\begin{codeexample}[code only, tikz syntax=false]
--InterfaceToDisplay.bind(require "pgf.gd.bindings.BindingToPGF")
--\end{codeexample}
--
-- Inside this call, many standard declarations will be executed, that
-- is, the declared binding will be used immediately.
--
-- Subsequently, the |binding| field of the |InterfaceCore| can be used.
--
-- @param class A subclass of |Binding|.
function InterfaceToDisplay.bind(class)
assert (not InterfaceCore.binding, "binding already initialized")
-- Create a new object
InterfaceCore.binding = setmetatable({}, class)
-- Load these libraries, which contain many standard declarations:
require "pgf.gd.model.library"
require "pgf.gd.control.library"
end
---
-- Start a graph drawing scope. Note that this is not the same as
-- starting a subgraph / sublayout, which are local to a graph drawing
-- scope: When a new graph drawing scope is started, it is pushed on
-- top of a stack of graph drawing scopes and all other ``open''
-- scopes are no longer directly accessible. All method calls to an
-- |Interface...| object will refer to this newly created scope until
-- either a new scope is opened or until the current scope is closed
-- once more.
--
-- Each graph drawing scope comes with a syntactic digraph that is
-- build using methods like |addVertex| or |addEdge|.
--
-- @param height The to-be-used height of the options stack. All
-- options above this height will be popped prior to attacking the
-- options to the syntactic digraph.
function InterfaceToDisplay.beginGraphDrawingScope(height)
-- Create a new scope table
local scope = Scope.new {}
-- Setup syntactic digraph:
local g = scope.syntactic_digraph
g.options = get_current_options_table(height)
g.syntactic_digraph = g
g.scope = scope
-- Push scope:
InterfaceCore.scopes[#InterfaceCore.scopes + 1] = scope
end
---
-- Arranges the current graph using the specified algorithm and options.
--
-- This function should be called after the graph drawing scope has
-- been opened and the syntactic digraph has been completely
-- specified. It will now start running the algorithm specified
-- through the |algorithm_phase| options.
--
-- Internally, this function creates a coroutine that will run the current graph
-- drawing algorithm. Coroutines are needed since a graph drawing
-- algorithm may choose to create a new node. In this case, the
-- algorithm needs to be suspended and control must be returned back
-- to the display layer, so that the node can be typeset in order to
-- determine the precise size information. Once this is done, control
-- must be passed back to the exact point inside the algorithm where
-- the node was created. Clearly, all of these actions are exactly
-- what coroutines are for.
--
-- @return Time it took to run the algorithm
function InterfaceToDisplay.runGraphDrawingAlgorithm()
-- Time things
local start = os.clock()
-- Setup
local scope = InterfaceCore.topScope()
assert(not scope.coroutine, "coroutine already created for current gd scope")
-- The actual drawing function
local function run ()
if #scope.syntactic_digraph.vertices == 0 then
-- Nothing needs to be done
return
end
LayoutPipeline.run(scope)
end
scope.coroutine = coroutine.create(run)
-- Run it:
InterfaceToDisplay.resumeGraphDrawingCoroutine()
-- End timing:
local stop = os.clock()
return stop - start
end
---
-- Resume the graph drawing coroutine.
--
-- This function is the work horse of the coroutine management. It
-- gets called whenever control passes back from the display layer to
-- the algorithm level. We resume the graph drawing coroutine so that the
-- algorithm can start/proceed. The tricky part is when the algorithm
-- yields, but is not done. In this case, the code needed for creating
-- a new node is passed back to the display layer through the binding,
-- which must then execute the code and then resuming the coroutine.
--
function InterfaceToDisplay.resumeGraphDrawingCoroutine()
-- Setup
local scope = InterfaceCore.topScope()
local binding = InterfaceCore.binding
-- Asserts
assert(scope.coroutine, "coroutine not created for current gd scope")
-- Run
local ok, text = coroutine.resume(scope.coroutine)
assert(ok, text)
if coroutine.status(scope.coroutine) ~= "dead" then
-- Ok, ask binding to continue
binding:resumeGraphDrawingCoroutine(text)
end
end
--- Ends the current graph drawing scope.
--
function InterfaceToDisplay.endGraphDrawingScope()
assert(#InterfaceCore.scopes > 0, "no gd scope open")
InterfaceCore.scopes[#InterfaceCore.scopes] = nil -- pop
end
---
-- Creates a new vertex in the syntactic graph of the current graph
-- drawing scope. The display layer should call this function for each
-- node of the graph. The |name| must be a unique string identifying
-- the node. The newly created vertex will be added to the syntactic
-- digraph. The binding function |everyVertexCreation| will then be
-- called, allowing the binding to store information regarding the newly
-- created vertex.
--
-- For each vertex an event will be created in the event
-- sequence. This event will have the kind |"node"| and its
-- |parameter| will be the vertex.
--
-- @param name Name of the vertex.
--
-- @param shape The shape of the vertex such as |"circle"| or
-- |"rectangle"|. This shape may help a graph drawing algorithm
-- figuring out how the node should be placed.
--
-- @param path A |Path| object representing the vertex's path.
--
-- @param height The to-be-used height of the options stack. All
-- options above this height will be popped prior to attacking the
-- options to the syntactic digraph.
--
-- @param binding_infos These options are passed to and are specific
-- to the current |Binding|.
--
-- @param anchors A table of anchors (mapping anchor positions to
-- |Coordinates|).
function InterfaceToDisplay.createVertex(name, shape, path, height, binding_infos, anchors)
-- The path should never be empty, so we create a trivial path in the provided
-- path is empty. This occurs with the ‘coordinate‘ shape for example.
if #path == 0 then
path:appendMoveto(0, 0)
path:appendClosepath()
end
-- Setup
local scope = InterfaceCore.topScope()
local binding = InterfaceCore.binding
-- Does vertex already exist?
local v = scope.node_names[name]
assert (not v or not v.created_on_display_layer, "node already created")
-- Create vertex
if not v then
v = Vertex.new {
name = name,
shape = shape,
kind = "node",
path = path,
options = get_current_options_table(height),
anchors = anchors,
}
vertex_created(v,scope)
else
assert(v.kind == "subgraph node", "subgraph node expected")
v.shape = shape
v.path = path
v.anchors = anchors
end
v.created_on_display_layer = true
-- Call binding
binding.storage[v] = binding_infos
binding:everyVertexCreation(v)
end
-- This is a helper function
function vertex_created(v,scope)
-- Create Event
local e = InterfaceToDisplay.createEvent ("node", v)
v.event = e
-- Create name lookup
scope.node_names[v.name] = v
-- Add vertex to graph
scope.syntactic_digraph:add {v}
-- Add to collections
for _,c in ipairs(v.options.collections) do
LookupTable.addOne(c.vertices, v)
end
end
---
-- Creates a new vertex in the syntactic graph of the current graph
-- drawing scope that is a subgraph vertex. Such a vertex
-- ``surrounds'' the vertices of a subgraph. The special property of a
-- subgraph node opposed to a normal node is that it is created only
-- after the subgraph has been laid out. However, the difference to a
-- collection like |hyper| is that the node is availble immediately as
-- a normal node in the sense that you can connect edges to it.
--
-- What happens internally is that subgraph nodes get ``registered''
-- immediately both on the display level and on the algorithm level,
-- but the actual node is only created inside the layout pipeline
-- using a callback of the binding. The present function is used to
-- perform this registering. The node creation happens when the
-- innermost layout in which the subgraph node is declared has
-- finished. For each subgraph node, a collection is created that
-- contains all vertices (and edges) being part of the subgraph. For
-- this reason, this method is a |push...| method, since it pushes
-- something on the options stack.
--
-- The |init| parameter will be used during the creation of the node,
-- see |Binding:createVertex| for details on the fields. Note that
-- |init.text| is often not displayed for such ``vast'' nodes as those
-- created for whole subgraphs, but a shape may use it nevertheless
-- (for instance, one might display this text at the top of the node
-- or, in case of a \textsc{uml} package, in a special box above the
-- actual node).
--
-- The |init.generated_options| will be augmented by additional
-- key--value pairs when the vertex is created:
--
-- \begin{itemize}
-- \item The key |subgraph point cloud| will have as its value a
-- string that is be a list of points (without
-- separating commas) like |"(10pt,20pt)(0pt,0pt)(30pt,40pt)"|, always in
-- this syntax. The list will contain all points inside the
-- subgraph. In particular, a bounding box around these points will
-- encompass all nodes and bend points of the subgraph.
-- The bounding box of this point cloud is guaranteed to be centered on
-- the origin.
-- \item The key |subgraph bounding box width| will have as its value
-- the width of a bounding box (in \TeX\ points, as a string with the
-- suffix |"pt"|).
-- \item The key |subgraph bounding box height| stores the height of a
-- bounding box.
-- \end{itemize}
--
-- @param name The name of the node.
-- @param height Height of the options stack. Note that this method
-- pushes something (namely a collection) on the options stack.
-- @param info A table passed to |Binding:createVertex|, see that function.
--
function InterfaceToDisplay.pushSubgraphVertex(name, height, info)
-- Setup
local scope = InterfaceCore.topScope()
local binding = InterfaceCore.binding
-- Does vertex already exist?
assert (not scope.node_names[name], "node already created")
-- Create vertex
local v = Vertex.new {
name = name,
kind = "subgraph node",
options = get_current_options_table(height-1)
}
vertex_created(v,scope)
-- Store info
info.generated_options = info.generated_options or {}
info.name = name
v.subgraph_info = info
-- Create collection and link it to v
local _, _, entry = InterfaceToDisplay.pushOption(InterfaceCore.subgraph_node_kind, nil, height)
v.subgraph_collection = entry.value
v.subgraph_collection.subgraph_node = v
-- Find parent collection in options stack:
local collections = v.options.collections
for i=#collections,1,-1 do
if collections[i].kind == InterfaceCore.sublayout_kind then
v.subgraph_collection.parent_layout = collections[i]
break
end
end
end
---
-- Add options for an already existing vertex.
--
-- This function allows you to add options to an already existing
-- vertex. The options that will be added are all options on the
-- current options stack; they will overwrite existing options of the
-- same name. For collections, the vertex stays in all collections it
-- used to, it is only added to all collections that are currently on
-- the options stack.
--
-- @param name Name of the vertex.
-- @param height The option stack height.
function InterfaceToDisplay.addToVertexOptions(name, height)
-- Setup
local scope = InterfaceCore.topScope()
-- Does vertex already exist?
local v = assert (scope.node_names[name], "node is missing, cannot add options")
v.options = get_current_options_table(height, v.options)
-- Add to collections
for _,c in ipairs(v.options.collections) do
LookupTable.addOne(c.vertices, v)
end
end
---
-- Creates a new edge in the syntactic graph of the current graph
-- drawing scope. The display layer should call this function for each
-- edge that is created. Both the |from| vertex and the |to| vertex
-- must exist (have been created through |createVertex|) prior to your
-- being able to call this function.
--
-- After the edge has been created, the binding layer's function
-- |everyEdgeCreation| will be called, allowing the binding layer to
-- store information about the edge.
--
-- For each edge an event is created, whose kind is |"edge"| and whose
-- |parameter| is a two-element array whose first entry is the edge's
-- arc in the syntactic digraph and whose second entry is the position
-- of the edge in the arc's array of syntactic edges.
--
-- @param tail Name of the node the edge begins at.
-- @param head Name of the node the edge ends at.
-- @param direction Direction of the edge (e.g. |--| for an undirected edge
-- or |->| for a directed edge from the first to the second
-- node).
-- @param height The option stack height, see for instance |createVertex|.
--
-- @param binding_infos These options will be stored in the |storage|
-- of the vertex at the field index by the binding.
function InterfaceToDisplay.createEdge(tail, head, direction, height, binding_infos)
-- Setup
local scope = InterfaceCore.topScope()
local binding = InterfaceCore.binding
-- Does vertex already exist?
local h = scope.node_names[head]
local t = scope.node_names[tail]
assert (h and t, "attempting to create edge between nodes that are not in the graph")
-- Create Arc object
local arc = scope.syntactic_digraph:connect(t, h)
-- Create Edge object
local edge = Edge.new {
head = h,
tail = t,
direction = direction,
options = get_current_options_table(height)
}
-- Add to arc
arc.syntactic_edges[#arc.syntactic_edges+1] = edge
-- Create Event
local e = InterfaceToDisplay.createEvent ("edge", { arc, #arc.syntactic_edges })
edge.event = e
-- Make part of collections
for _,c in ipairs(edge.options.collections) do
LookupTable.addOne(c.edges, edge)
end
-- Call binding
binding.storage[edge] = binding_infos
binding:everyEdgeCreation(edge)
end
---
-- Push an option to the stack of options.
--
-- As a graph is parsed, a stack of ``current options''
-- is created. To add something to this table, the display layers may
-- call the method |pushOption|. To pop something from this stack,
-- just set the |height| value during the next push to the position to
-- which you actually wish to push something; everything above and
-- including this position will be popped from the stack.
--
-- When an option is pushed, several additional options may also be
-- pushed, namely whenever the option has a |use| field set. These
-- additional options may, in turn, also push new options. Because of
-- this, this function returns a new stack height, representing the
-- resulting stack height.
--
-- In addition to this stack height, this function returns a Boolean
-- value indicating whether a ``main algorithm phase was set.'' This
-- happens whenever a key is executed (directly or indirectly through
-- the |use| field) that selects an algorithm for the ``main''
-- algorithm phase. This information may help the caller to setup the
-- graph drawing scopes correctly.
--
-- @param key A parameter (must be a string).
-- @param value A value (can be anything). If it is a string, it will
-- be converted to whatever the key expects.
-- @param height A stack height at which to insert the key. Everything
-- above this height will be removed.
--
-- @return A new stack height
-- @return A Boolean that is |true| iff the main algorithm phase was
-- set by the option or one option |use|d by it.
-- @return The newly created entry on the stack. If more entries are
-- created through the use of the |use| field, the original entry is
-- returned nevertheless.
function InterfaceToDisplay.pushOption(key, value, height)
assert(type(key) == "string", "illegal key")
local key_record = assert(InterfaceCore.keys[key], "unknown key")
local main_phase_set = false
if value == nil and key_record.default then
value = key_record.default
end
-- Find out what kind of key we are pushing:
if key_record.algorithm then
-- Push a phase
if type(InterfaceCore.algorithm_classes[key]) == "function" then
-- Call the constructor function
InterfaceCore.algorithm_classes[key] = InterfaceCore.algorithm_classes[key]()
end
local algorithm = InterfaceCore.algorithm_classes[key]
assert (algorithm, "algorithm class not found")
push_on_option_stack(phase_unique,
{ phase = value or key_record.phase, algorithm = algorithm },
height)
if key_record.phase == "main" then
main_phase_set = true
end
elseif key_record.layer then
-- Push a collection
local stack = InterfaceCore.option_stack
local scope = InterfaceCore.topScope()
-- Get the stack above "height":
local options = get_current_options_table(height-1)
-- Create the collection event
local event = InterfaceToDisplay.createEvent ("collection", key)
-- Create collection object:
local collection = Collection.new { kind = key, options = options, event = event }
-- Store in collections table of current scope:
local collections = scope.collections[key] or {}
collections[#collections + 1] = collection
scope.collections[key] = collections
-- Build collection tree
collection:registerAsChildOf(options.collections[#options.collections])
-- Push on stack
push_on_option_stack(collections_unique, collection, height)
else
-- A normal key
push_on_option_stack(key, InterfaceCore.convert(value, InterfaceCore.keys[key].type), height)
end
local newly_created = InterfaceCore.option_stack[#InterfaceCore.option_stack]
-- Now, push use keys:
local use = key_record.use
if key_record.use then
local flag
for _,u in ipairs(InterfaceCore.keys[key].use) do
local use_k = u.key
local use_v = u.value
if type(use_k) == "function" then
use_k = use_k(value)
end
if type(use_v) == "function" then
use_v = use_v(value)
end
height, flag = InterfaceToDisplay.pushOption(use_k, use_v, height+1)
main_phase_set = main_phase_set or flag
end
end
return height, main_phase_set, newly_created
end
---
-- Push a layout on the stack of options. As long as this layout is on
-- the stack, all vertices and edges will be part of this layout. For
-- details on layouts, please see |Sublayouts|.
--
-- @param height A stack height at which to insert the key. Everything
-- above this height will be removed.
function InterfaceToDisplay.pushLayout(height)
InterfaceToDisplay.pushOption(InterfaceCore.sublayout_kind, nil, height)
end
---
-- Creates an event and adds it to the event string of the current scope.
--
-- @param kind Name/kind of the event.
-- @param parameters Parameters of the event.
--
-- @return The newly pushed event
--
function InterfaceToDisplay.createEvent(kind, param)
local scope = InterfaceCore.topScope()
local n = #scope.events + 1
local e = Event.new { kind = kind, parameters = param, index = n }
scope.events[n] = e
return e
end
---
-- This method allows you to query the table of all declared keys. It
-- contains them both as an array and also as a table index by the
-- keys's names. In particular, you can then iterate over it using
-- |ipairs| and you can check whether a key is defined by accessing
-- the table at the key's name. Each entry of the table is the
-- original table passed to |InterfaceToAlgorithms.declare|.
--
-- @return A lookup table of all declared keys.
function InterfaceToDisplay.getDeclaredKeys()
return InterfaceCore.keys
end
---
-- Renders the graph.
--
-- This function is called after the graph has been laid out by the
-- graph drawing algorithms. It will trigger a sequence of calls to
-- the binding layer that will, via callbacks, start rendering the
-- whole graph.
--
-- In detail, this function calls:
--
--\begin{codeexample}[code only, tikz syntax=false]
--local binding = InterfaceCore.binding
--
--binding:renderStart()
--render_vertices()
--render_edges()
--render_collections()
--binding:renderStop()
--\end{codeexample}
--
-- Here, the |render_...| functions are local, internal functions that are,
-- nevertheless, documented here.
--
-- @param name Returns the algorithm class that has been declared using
-- |declare| under the given name.
function InterfaceToDisplay.renderGraph()
local scope = InterfaceCore.topScope()
local syntactic_digraph = scope.syntactic_digraph
local binding = InterfaceCore.binding
binding:renderStart()
render_vertices(syntactic_digraph.vertices)
render_edges(syntactic_digraph.arcs)
render_collections(scope.collections)
binding:renderStop()
end
---
-- Render the vertices after the graph drawing algorithm has
-- finished. This function is local and internal and included only for
-- documenting the call graph.
--
-- When the graph drawing algorithm is done, the interface will start
-- rendering the vertices by calling appropriate callbacks of the
-- binding layer.
--
-- Consider the following code:
--\begin{codeexample}[code only]
--\graph [... layout] {
-- a -- b -- c -- d;
--};
--\end{codeexample}
--
-- In this case, after the graph drawing algorithm has run, the
-- present function will call:
--
--\begin{codeexample}[code only, tikz syntax=false]
--local binding = InterfaceCore.binding
--
--binding:renderVerticesStart()
--binding:renderVertex(vertex_a)
--binding:renderVertex(vertex_b)
--binding:renderVertex(vertex_c)
--binding:renderVertex(vertex_d)
--binding:renderVerticesStop()
--\end{codeexample}
--
-- @param vertices An array of all vertices in the syntactic digraph.
function render_vertices(vertices)
InterfaceCore.binding:renderVerticesStart()
for _,vertex in ipairs(vertices) do
InterfaceCore.binding:renderVertex(vertex)
end
InterfaceCore.binding:renderVerticesStop()
end
---
-- Render the collections whose layer is not |0|. This local, internal
-- function is called to render the different collection kinds.
--
-- Collection kinds rendered in the order provided by the |layer|
-- field passed to |declare| during the declaration of the colleciton
-- kind, see also |declare_collection|. If several collection kinds
-- have the same layer, they are rendered in lexicographical ordering
-- (to ensure that they are always rendered in the same order).
--
-- Consider the following code:
--\begin{codeexample}[code only, tikz syntax=false]
--declare { key = "hyper", layer = 1 }
--\end{codeexample}
-- you can say on the \tikzname\ layer
--\begin{codeexample}[code only]
--\graph {
-- a, b, c, d;
-- { [hyper] a, b, c }
-- { [hyper] b, c, d }
--};
--\end{codeexample}
--
-- In this case, after the graph drawing algorithm has run, the
-- present function will call:
--
--\begin{codeexample}[code only, tikz syntax=false]
--local binding = InterfaceCore.binding
--
--binding:renderCollectionStartKind("hyper", 1)
--binding:renderCollection(collection_containing_abc)
--binding:renderCollection(collection_containing_bcd)
--binding:renderCollectionStopKind("hyper", 1)
--\end{codeexample}
--
-- @param collections The |collections| table of the current scope.
function render_collections(collections)
local kinds = InterfaceCore.collection_kinds
local binding = InterfaceCore.binding
for i=1,#kinds do
local kind = kinds[i].kind
local layer = kinds[i].layer
if layer ~= 0 then
binding:renderCollectionStartKind(kind, layer)
for _,c in ipairs(collections[kind] or {}) do
binding:renderCollection(c)
end
binding:renderCollectionStopKind(kind, layer)
end
end
end
---
-- Render the syntactic edges of a graph after the graph drawing
-- algorithm has finished. This function is local and internal and included only
-- for documenting the call graph.
--
-- When the graph drawing algorithm is done, the interface will first
-- rendering the vertices using |render_vertices|, followed by calling
-- this function, which in turn calls appropriate callbacks to the
-- binding layer.
--
-- Consider the following code:
--\begin{codeexample}[code only]
-- \graph [... layout] {
-- a -- b -- c -- d;
-- };
--\end{codeexample}
--
-- In this case, after the graph drawing algorithm has run, the
-- present function will call:
--
--\begin{codeexample}[code only, tikz syntax=false]
-- local binding = InterfaceCore.binding
--
-- binding:renderEdgesStart()
-- binding:renderEdge(edge_from_a_to_b)
-- binding:renderEdge(edge_from_b_to_c)
-- binding:renderEdge(edge_from_c_to_d)
-- binding:renderEdgesStop()
--\end{codeexample}
--
-- @param arcs The array of arcs of the syntactic digraph.
function render_edges(arcs)
InterfaceCore.binding:renderEdgesStart()
for _,a in ipairs(arcs) do
for _,e in ipairs (a.syntactic_edges) do
InterfaceCore.binding:renderEdge(e)
end
end
InterfaceCore.binding:renderEdgesStop()
end
local aliases = InterfaceCore.option_aliases
local option_initial = InterfaceCore.option_initial
local option_metatable = {
__index =
function (t, key)
local k = aliases[key]
if k then
local v = (type(k) == "string" and t[k]) or (type(k) == "function" and k(t)) or nil
if v ~= nil then
return v
end
end
return option_initial[key]
end
}
---
-- Get the current options table.
--
-- An option table can be accessed like a normal table; however, there
-- is a global fallback for this table. If an index is not defined,
-- the value of this index in the global fallback table is used. (This
-- reduces the overall amount of option keys that need to be stored
-- with object.)
--
-- (This function is local and internal and included only for documentation
-- purposes.)
--
-- @param height The stack height for which the option table is
-- required.
-- @param table If non |nil|, the options will be added to this
-- table.
--
-- @return The option table as described above.
function get_current_options_table (height, table)
local stack = InterfaceCore.option_stack
assert (height >= 0 and height <= #stack, "height value out of bounds")
if height == InterfaceCore.option_cache_height and not table then
return option_cache
else
-- Clear superfluous part of stack
for i=#stack,height+1,-1 do
stack[i] = nil
end
-- Build options table
local cache
if not table then
cache = setmetatable(
{
algorithm_phases = setmetatable({}, InterfaceCore.option_initial.algorithm_phases),
collections = {}
}, option_metatable)
else
cache = lib.copy(table)
cache.algorithm_phases = lib.copy(cache.algorithm_phases)
cache.collections = lib.copy(cache.collections)
end
local algorithm_phases = cache.algorithm_phases
local collections = cache.collections
local keys = InterfaceCore.keys
local function handle (k, v)
if k == phase_unique then
algorithm_phases[v.phase] = v.algorithm
local phase_stack = v.phase .. " stack"
local t = rawget(algorithm_phases, phase_stack)
if not t then
t = algorithm_phases[phase_stack]
assert(type(t) == "table", "unknown phase")
t = lib.copy(t)
algorithm_phases[phase_stack] = t
end
t[#t + 1] = v.algorithm
elseif k == collections_unique then
LookupTable.addOne(collections, v)
else
cache[k] = v
end
end
for _,s in ipairs(stack) do